| P2093 | author name string | C Y Guezennec | |
| | J M Vallier | |
| | A Durey | |
| | A X Bigard | |
| P2860 | cites work | Energetics of running: a new perspective | Q34762537 |
| | Factors affecting running economy | Q38654662 |
| | Plasma volume responses associated with a sprint triathlon in novice triathletes | Q38689075 |
| | Muscle fiber activity as a function of speed and gait | Q41056457 |
| | Contribution of exercising legs to the slow component of oxygen uptake kinetics in humans | Q41145090 |
| | The energy cost of running increases with the distance covered | Q41853332 |
| | Reliability of measurement of oxygen uptake by a portable telemetric system | Q45261330 |
| | Red cell volume with changes in plasma osmolarity during maximal exercise | Q47988729 |
| | Strenuous prolonged exercise elevates resting metabolic rate and causes reduced mechanical efficiency | Q48907763 |
| | Differences and changes in VO2 among young runners 10 to 18 years of age | Q54299923 |
| | Oxygen consumption during constant-load exercise | Q67393265 |
| | Cardiovascular and thermal responses of triathlon performance | Q67938036 |
| | Physiological differences between black and white runners during a treadmill marathon | Q68681395 |
| | Hematological and biochemical changes during a short triathlon competition in novice triathletes | Q68681404 |
| | Plasma renin activity, aldosterone and catecholamine levels when swimming and running | Q68860977 |
| | Effect of endurance training on possible determinants of VO2 during heavy exercise | Q68962186 |
| | An explanation of the upward drift in oxygen uptake during prolonged sub-maximal downhill running | Q69075667 |
| | Lactate, oxygen uptake, and cycling performance in triathletes | Q69453159 |
| | Physiologic and biochemical changes during a triathlon competition | Q70030717 |
| | Distribution of blood flow in muscles of miniature swine during exercise | Q70336967 |
| | Oxygen uptake kinetics for various intensities of constant-load work | Q70443543 |
| | Relationship of oxygen consumption and cardiac output to work of breathing | Q70617097 |
| | Oxygen consumption using the K2 telemetry system and a metabolic cart | Q70617115 |
| | Evaluation of the Cosmed K2 telemetry system during exercise at moderate altitude | Q70811728 |
| | A comparison of two middle-aged ultramarathon runners | Q71015168 |
| | Determinants and consequences of ventilatory responses to competitive endurance running | Q71596348 |
| | The influence of wind resistance in running and walking and the mechanical efficiency of work against horizontal or vertical forces | Q71836286 |
| | Lipid metabolism and muscular work | Q72357215 |
| | Validity and reliability of the Cosmed K2 instrument | Q72618400 |
| | The oxygen cost of breathing during vigorous exercise | Q93835503 |
| P433 | issue | 5 | |
| P304 | page(s) | 440-445 | |
| P577 | publication date | 1996-01-01 | |
| P1433 | published in | European Journal of Applied Physiology and Occupational Physiology | Q23979065 |
| P1476 | title | Increase in energy cost of running at the end of a triathlon | |
| P478 | volume | 73 | |